Small-scale experiments on melt spreading and deposition via melt-jet impingement on a dry substrate; Evaluation of empirical correlations for deposition area of continuous layered debris

岩澤 譲  ; 柴本 泰照 ; 丸山 結 

Iwasawa, Yuzuru; Shibamoto, Yasuteru; Maruyama, Yu

Continuous layered debris deposited due to the molten core (melt) spreading across the floor of a containment vessel can pose a serious threat to containment integrity during severe accidents in light water reactors. The present study conducted small-scale experiments to investigate melt spreading process and subsequent deposition of continuous layered debris via melt-jet impingement onto a floor. The small-scale experiments were conducted using a low-melting-point metal under dry conditions without coolant water. High-speed imaging and image processing techniques were employed to elucidate the influence of melt injection conditions on melt spreading and subsequent deposition of continuous layered debris. The use of larger nozzle sizes and more highly superheated melts enabled the expansion of the experimental database. Based on the experimental results, we identified appropriate correlations from those proposed in previous studies to estimate the debris deposition area and evaluated their predictive accuracies. These correlations were then applied to estimate the potential spreading area of the relocated melt under anticipated reactor-scale conditions. The analysis revealed that thermal effects, such as heat transfer to the floor, influence the potential spreading area, could be incorporated into the correlations for applications under the anticipated reactor-scale conditions.